Design and implementation of an ERLS-based 3-D dynamic formulation for flexible-link robots

Modeling and dynamic analysis of robots with flexible-links are still an open field of research. Indeed, to design and control effective light robot manipulators and high-performance flexible mechanisms for efficient manufacturing systems, an accurate dynamic model representing the system behavior is necessary. In this work, a novel method for dynamic modeling of 3-D robots with large displacements and small elastic deformations is developed by means of an Equivalent Rigid Link System (ERLS) approach. Thanks to this, the kinematic equations of the Equivalent Rigid Link System and the compatibility equations of the displacements at the joints are always decoupled. After the theoretical development, the kinematic and dynamic models have been implemented on a Matlab™Matlab™ software simulator and validated.

► Efficient manufacturing systems need high-performance and high-dynamics robots. ► We developed a dynamic model for lightweight high-performance 3D robots. ► An ERLS (Equivalent Rigid Link System) approach has been adopted and exploited. ► The dynamic formulation has been numerically implemented and validated.